#!/usr/bin/python3 -i
#
# Copyright (c) 2015-2016 The Khronos Group Inc.
# Copyright (c) 2015-2016 Valve Corporation
# Copyright (c) 2015-2016 LunarG, Inc.
# Copyright (c) 2015-2016 Google Inc.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#     http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
# Author: Dustin Graves <dustin@lunarg.com>
# Author: Mark Lobodzinski <mark@lunarg.com>

import os,re,sys,string
import xml.etree.ElementTree as etree
from generator import *
from collections import namedtuple
from vuid_mapping import *
from common_codegen import *

# This is a workaround to use a Python 2.7 and 3.x compatible syntax.
from io import open

# ParameterValidationGeneratorOptions - subclass of GeneratorOptions.
#
# Adds options used by ParameterValidationOutputGenerator object during Parameter validation layer generation.
#
# Additional members
#   prefixText - list of strings to prefix generated header with
#     (usually a copyright statement + calling convention macros).
#   protectFile - True if multiple inclusion protection should be
#     generated (based on the filename) around the entire header.
#   protectFeature - True if #ifndef..#endif protection should be
#     generated around a feature interface in the header file.
#   genFuncPointers - True if function pointer typedefs should be
#     generated
#   protectProto - If conditional protection should be generated
#     around prototype declarations, set to either '#ifdef'
#     to require opt-in (#ifdef protectProtoStr) or '#ifndef'
#     to require opt-out (#ifndef protectProtoStr). Otherwise
#     set to None.
#   protectProtoStr - #ifdef/#ifndef symbol to use around prototype
#     declarations, if protectProto is set
#   apicall - string to use for the function declaration prefix,
#     such as APICALL on Windows.
#   apientry - string to use for the calling convention macro,
#     in typedefs, such as APIENTRY.
#   apientryp - string to use for the calling convention macro
#     in function pointer typedefs, such as APIENTRYP.
#   indentFuncProto - True if prototype declarations should put each
#     parameter on a separate line
#   indentFuncPointer - True if typedefed function pointers should put each
#     parameter on a separate line
#   alignFuncParam - if nonzero and parameters are being put on a
#     separate line, align parameter names at the specified column
class ParameterValidationGeneratorOptions(GeneratorOptions):
    def __init__(self,
                 filename = None,
                 directory = '.',
                 apiname = None,
                 profile = None,
                 versions = '.*',
                 emitversions = '.*',
                 defaultExtensions = None,
                 addExtensions = None,
                 removeExtensions = None,
                 emitExtensions = None,
                 sortProcedure = regSortFeatures,
                 prefixText = "",
                 apicall = '',
                 apientry = '',
                 apientryp = '',
                 indentFuncProto = True,
                 indentFuncPointer = False,
                 alignFuncParam = 0,
                 expandEnumerants = True):
        GeneratorOptions.__init__(self, filename, directory, apiname, profile,
                                  versions, emitversions, defaultExtensions,
                                  addExtensions, removeExtensions, emitExtensions, sortProcedure)
        self.prefixText      = prefixText
        self.apicall         = apicall
        self.apientry        = apientry
        self.apientryp       = apientryp
        self.indentFuncProto = indentFuncProto
        self.indentFuncPointer = indentFuncPointer
        self.alignFuncParam  = alignFuncParam
        self.expandEnumerants = expandEnumerants

# ParameterValidationOutputGenerator - subclass of OutputGenerator.
# Generates param checker layer code.
#
# ---- methods ----
# ParamCheckerOutputGenerator(errFile, warnFile, diagFile) - args as for
#   OutputGenerator. Defines additional internal state.
# ---- methods overriding base class ----
# beginFile(genOpts)
# endFile()
# beginFeature(interface, emit)
# endFeature()
# genType(typeinfo,name)
# genStruct(typeinfo,name)
# genGroup(groupinfo,name)
# genEnum(enuminfo, name)
# genCmd(cmdinfo)
class ParameterValidationOutputGenerator(OutputGenerator):
    """Generate Parameter Validation code based on XML element attributes"""
    # This is an ordered list of sections in the header file.
    ALL_SECTIONS = ['command']
    def __init__(self,
                 errFile = sys.stderr,
                 warnFile = sys.stderr,
                 diagFile = sys.stdout):
        OutputGenerator.__init__(self, errFile, warnFile, diagFile)
        self.INDENT_SPACES = 4
        self.intercepts = []
        self.declarations = []
        # Commands to ignore
        self.blacklist = [
            'vkGetInstanceProcAddr',
            'vkGetDeviceProcAddr',
            'vkEnumerateInstanceVersion',
            'vkEnumerateInstanceLayerProperties',
            'vkEnumerateInstanceExtensionProperties',
            'vkEnumerateDeviceLayerProperties',
            'vkEnumerateDeviceExtensionProperties',
            'vkCmdDebugMarkerEndEXT',
            ]
        self.validate_only = [
            'vkCreateInstance',
            'vkDestroyInstance',
            'vkCreateDevice',
            'vkDestroyDevice',
            'vkCreateQueryPool',
            'vkCreateDebugReportCallbackEXT',
            'vkDestroyDebugReportCallbackEXT',
            'vkCreateCommandPool',
            'vkCreateRenderPass',
            'vkDestroyRenderPass',
            'vkCreateDebugUtilsMessengerEXT',
            'vkDestroyDebugUtilsMessengerEXT',
            ]
        # Structure fields to ignore
        self.structMemberBlacklist = { 'VkWriteDescriptorSet' : ['dstSet'] }
        # Validation conditions for some special case struct members that are conditionally validated
        self.structMemberValidationConditions = { 'VkPipelineColorBlendStateCreateInfo' : { 'logicOp' : '{}logicOpEnable == VK_TRUE' } }
        # Header version
        self.headerVersion = None
        # Internal state - accumulators for different inner block text
        self.validation = []                              # Text comprising the main per-api parameter validation routines
        self.structNames = []                             # List of Vulkan struct typenames
        self.stypes = []                                  # Values from the VkStructureType enumeration
        self.structTypes = dict()                         # Map of Vulkan struct typename to required VkStructureType
        self.handleTypes = set()                          # Set of handle type names
        self.commands = []                                # List of CommandData records for all Vulkan commands
        self.structMembers = []                           # List of StructMemberData records for all Vulkan structs
        self.validatedStructs = dict()                    # Map of structs type names to generated validation code for that struct type
        self.enumRanges = dict()                          # Map of enum name to BEGIN/END range values
        self.enumValueLists = ''                          # String containing enumerated type map definitions
        self.func_pointers = ''                           # String containing function pointers for manual PV functions
        self.typedefs = ''                                # String containing function pointer typedefs
        self.flags = set()                                # Map of flags typenames
        self.flagBits = dict()                            # Map of flag bits typename to list of values
        self.newFlags = set()                             # Map of flags typenames /defined in the current feature/
        self.required_extensions = dict()                 # Dictionary of required extensions for each item in the current extension
        self.extension_type = ''                          # Type of active feature (extension), device or instance
        self.extension_names = dict()                     # Dictionary of extension names to extension name defines
        self.valid_vuids = set()                          # Set of all valid VUIDs
        # Named tuples to store struct and command data
        self.StructType = namedtuple('StructType', ['name', 'value'])
        self.CommandParam = namedtuple('CommandParam', ['type', 'name', 'ispointer', 'isstaticarray', 'isbool', 'israngedenum',
                                                        'isconst', 'isoptional', 'iscount', 'noautovalidity', 'len', 'extstructs',
                                                        'condition', 'cdecl'])
        self.CommandData = namedtuple('CommandData', ['name', 'params', 'cdecl', 'extension_type', 'result'])
        self.StructMemberData = namedtuple('StructMemberData', ['name', 'members'])

        self.vuid_file = None
        # Cover cases where file is built from scripts directory, Lin/Win, or Android build structure
        # Set cwd to the script directory to more easily locate the header.
        previous_dir = os.getcwd()
        os.chdir(os.path.dirname(sys.argv[0]))
        vuid_filename_locations = [
            './vk_validation_error_messages.h',
            '../layers/vk_validation_error_messages.h',
            '../../layers/vk_validation_error_messages.h',
            '../../../layers/vk_validation_error_messages.h',
            ]
        for vuid_filename in vuid_filename_locations:
            if os.path.isfile(vuid_filename):
                self.vuid_file = open(vuid_filename, "r", encoding="utf8")
                break
        if self.vuid_file == None:
            print("Error: Could not find vk_validation_error_messages.h")
            sys.exit(1)
        os.chdir(previous_dir)
    #
    # Generate Copyright comment block for file
    def GenerateCopyright(self):
        copyright  = '/* *** THIS FILE IS GENERATED - DO NOT EDIT! ***\n'
        copyright += ' * See parameter_validation_generator.py for modifications\n'
        copyright += ' *\n'
        copyright += ' * Copyright (c) 2015-2017 The Khronos Group Inc.\n'
        copyright += ' * Copyright (c) 2015-2017 LunarG, Inc.\n'
        copyright += ' * Copyright (C) 2015-2017 Google Inc.\n'
        copyright += ' *\n'
        copyright += ' * Licensed under the Apache License, Version 2.0 (the "License");\n'
        copyright += ' * you may not use this file except in compliance with the License.\n'
        copyright += ' * Copyright (c) 2015-2017 Valve Corporation\n'
        copyright += ' * You may obtain a copy of the License at\n'
        copyright += ' *\n'
        copyright += ' *     http://www.apache.org/licenses/LICENSE-2.0\n'
        copyright += ' *\n'
        copyright += ' * Unless required by applicable law or agreed to in writing, software\n'
        copyright += ' * distributed under the License is distributed on an "AS IS" BASIS,\n'
        copyright += ' * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n'
        copyright += ' * See the License for the specific language governing permissions and\n'
        copyright += ' * limitations under the License.\n'
        copyright += ' *\n'
        copyright += ' * Author: Mark Lobodzinski <mark@LunarG.com>\n'
        copyright += ' */\n\n'
        return copyright
    #
    # Increases the global indent variable
    def incIndent(self, indent):
        inc = ' ' * self.INDENT_SPACES
        if indent:
            return indent + inc
        return inc
    #
    # Decreases the global indent variable
    def decIndent(self, indent):
        if indent and (len(indent) > self.INDENT_SPACES):
            return indent[:-self.INDENT_SPACES]
        return ''
    #
    # Convert decimal number to 8 digit hexadecimal lower-case representation
    def IdToHex(self, dec_num):
        if dec_num > 4294967295:
            print ("ERROR: Decimal # %d can't be represented in 8 hex digits" % (dec_num))
            sys.exit(1)
        hex_num = hex(dec_num)
        return hex_num[2:].zfill(8)
    #
    # Called at file creation time
    def beginFile(self, genOpts):
        OutputGenerator.beginFile(self, genOpts)
        # C-specific
        #
        # Open vk_validation_error_messages.h file to verify computed VUIDs
        for line in self.vuid_file:
            # Grab hex number from enum definition
            vuid_list = line.split('0x')
            # If this is a valid enumeration line, remove trailing comma and CR
            if len(vuid_list) == 2:
                vuid_num = vuid_list[1][:-2]
                # Make sure this is a good hex number before adding to set
                if len(vuid_num) == 8 and all(c in string.hexdigits for c in vuid_num):
                    self.valid_vuids.add(vuid_num)
        #
        # User-supplied prefix text, if any (list of strings)
        s = self.GenerateCopyright()
        write(s, file=self.outFile)
        #
        # Headers
        write('#include <string>', file=self.outFile)
        self.newline()
        write('#include "vk_loader_platform.h"', file=self.outFile)
        write('#include "vulkan/vulkan.h"', file=self.outFile)
        write('#include "vk_layer_extension_utils.h"', file=self.outFile)
        write('#include "parameter_validation.h"', file=self.outFile)
        #
        # Macros
        self.newline()
        write('#ifndef UNUSED_PARAMETER', file=self.outFile)
        write('#define UNUSED_PARAMETER(x) (void)(x)', file=self.outFile)
        write('#endif // UNUSED_PARAMETER', file=self.outFile)
        #
        # Namespace
        self.newline()
        write('namespace parameter_validation {', file = self.outFile)
        self.newline()
        write('extern std::mutex global_lock;', file = self.outFile)
        write('extern std::unordered_map<void *, layer_data *> layer_data_map;', file = self.outFile)
        write('extern std::unordered_map<void *, instance_layer_data *> instance_layer_data_map;', file = self.outFile)
        self.newline()
        #
        # FuncPtrMap
        self.func_pointers += 'std::unordered_map<std::string, void *> custom_functions = {\n'
    #
    # Called at end-time for final content output
    def endFile(self):
        # C-specific
        self.newline()
        write(self.enumValueLists, file=self.outFile)
        self.newline()
        write(self.typedefs, file=self.outFile)
        self.newline()
        self.func_pointers += '};\n'
        write(self.func_pointers, file=self.outFile)
        self.newline()
        ext_template  = 'template <typename T>\n'
        ext_template += 'bool OutputExtensionError(const T *layer_data, const std::string &api_name, const std::string &extension_name) {\n'
        ext_template += '    return log_msg(layer_data->report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_UNKNOWN_EXT, 0,\n'
        ext_template += '                   EXTENSION_NOT_ENABLED, "Attemped to call %s() but its required extension %s has not been enabled\\n",\n'
        ext_template += '                   api_name.c_str(), extension_name.c_str());\n'
        ext_template += '}\n'
        write(ext_template, file=self.outFile)
        self.newline()
        commands_text = '\n'.join(self.validation)
        write(commands_text, file=self.outFile)
        self.newline()
        # Output declarations and record intercepted procedures
        write('// Declarations', file=self.outFile)
        write('\n'.join(self.declarations), file=self.outFile)
        write('// Map of all APIs to be intercepted by this layer', file=self.outFile)
        write('const std::unordered_map<std::string, void*> name_to_funcptr_map = {', file=self.outFile)
        write('\n'.join(self.intercepts), file=self.outFile)
        write('};\n', file=self.outFile)
        self.newline()
        # Namespace
        write('} // namespace parameter_validation', file = self.outFile)
        # Finish processing in superclass
        OutputGenerator.endFile(self)
    #
    # Processing at beginning of each feature or extension
    def beginFeature(self, interface, emit):
        # Start processing in superclass
        OutputGenerator.beginFeature(self, interface, emit)
        # C-specific
        # Accumulate includes, defines, types, enums, function pointer typedefs, end function prototypes separately for this
        # feature. They're only printed in endFeature().
        self.headerVersion = None
        self.structNames = []
        self.stypes = []
        self.commands = []
        self.structMembers = []
        self.newFlags = set()
        self.featureExtraProtect = GetFeatureProtect(interface)
        # Get base list of extension dependencies for all items in this extension
        base_required_extensions = []
        if "VK_VERSION_1" not in self.featureName:
            # Save Name Define to get correct enable name later
            nameElem = interface[0][1]
            name = nameElem.get('name')
            self.extension_names[self.featureName] = name
            # This extension is the first dependency for this command
            base_required_extensions.append(self.featureName)
        # Add any defined extension dependencies to the base dependency list for this extension
        requires = interface.get('requires')
        if requires is not None:
            base_required_extensions.extend(requires.split(','))
        # Build dictionary of extension dependencies for each item in this extension
        self.required_extensions = dict()
        for require_element in interface.findall('require'):
            # Copy base extension dependency list
            required_extensions = list(base_required_extensions)
            # Add any additional extension dependencies specified in this require block
            additional_extensions = require_element.get('extension')
            if additional_extensions:
                required_extensions.extend(additional_extensions.split(','))
            # Save full extension list for all named items
            for element in require_element.findall('*[@name]'):
                self.required_extensions[element.get('name')] = required_extensions

        # And note if this is an Instance or Device extension
        self.extension_type = interface.get('type')
    #
    # Called at the end of each extension (feature)
    def endFeature(self):
        # C-specific
        # Actually write the interface to the output file.
        if (self.emit):
            # If type declarations are needed by other features based on this one, it may be necessary to suppress the ExtraProtect,
            # or move it below the 'for section...' loop.
            ifdef = ''
            if (self.featureExtraProtect != None):
                ifdef = '#ifdef %s\n' % self.featureExtraProtect
                self.validation.append(ifdef)
            # Generate the struct member checking code from the captured data
            self.processStructMemberData()
            # Generate the command parameter checking code from the captured data
            self.processCmdData()
            # Write the declaration for the HeaderVersion
            if self.headerVersion:
                write('const uint32_t GeneratedHeaderVersion = {};'.format(self.headerVersion), file=self.outFile)
                self.newline()
            # Write the declarations for the VkFlags values combining all flag bits
            for flag in sorted(self.newFlags):
                flagBits = flag.replace('Flags', 'FlagBits')
                if flagBits in self.flagBits:
                    bits = self.flagBits[flagBits]
                    decl = 'const {} All{} = {}'.format(flag, flagBits, bits[0])
                    for bit in bits[1:]:
                        decl += '|' + bit
                    decl += ';'
                    write(decl, file=self.outFile)
            endif = '\n'
            if (self.featureExtraProtect != None):
                endif = '#endif // %s\n' % self.featureExtraProtect
            self.validation.append(endif)
        # Finish processing in superclass
        OutputGenerator.endFeature(self)
    #
    # Type generation
    def genType(self, typeinfo, name, alias):
        OutputGenerator.genType(self, typeinfo, name, alias)
        typeElem = typeinfo.elem
        # If the type is a struct type, traverse the imbedded <member> tags generating a structure. Otherwise, emit the tag text.
        category = typeElem.get('category')
        if (category == 'struct' or category == 'union'):
            self.structNames.append(name)
            self.genStruct(typeinfo, name, alias)
        elif (category == 'handle'):
            self.handleTypes.add(name)
        elif (category == 'bitmask'):
            self.flags.add(name)
            self.newFlags.add(name)
        elif (category == 'define'):
            if name == 'VK_HEADER_VERSION':
                nameElem = typeElem.find('name')
                self.headerVersion = noneStr(nameElem.tail).strip()
    #
    # Struct parameter check generation.
    # This is a special case of the <type> tag where the contents are interpreted as a set of <member> tags instead of freeform C
    # type declarations. The <member> tags are just like <param> tags - they are a declaration of a struct or union member.
    # Only simple member declarations are supported (no nested structs etc.)
    def genStruct(self, typeinfo, typeName, alias):
        OutputGenerator.genStruct(self, typeinfo, typeName, alias)
        conditions = self.structMemberValidationConditions[typeName] if typeName in self.structMemberValidationConditions else None
        members = typeinfo.elem.findall('.//member')
        #
        # Iterate over members once to get length parameters for arrays
        lens = set()
        for member in members:
            len = self.getLen(member)
            if len:
                lens.add(len)
        #
        # Generate member info
        membersInfo = []
        for member in members:
            # Get the member's type and name
            info = self.getTypeNameTuple(member)
            type = info[0]
            name = info[1]
            stypeValue = ''
            cdecl = self.makeCParamDecl(member, 0)
            # Process VkStructureType
            if type == 'VkStructureType':
                # Extract the required struct type value from the comments embedded in the original text defining the
                # 'typeinfo' element
                rawXml = etree.tostring(typeinfo.elem).decode('ascii')
                result = re.search(r'VK_STRUCTURE_TYPE_\w+', rawXml)
                if result:
                    value = result.group(0)
                else:
                    value = self.genVkStructureType(typeName)
                # Store the required type value
                self.structTypes[typeName] = self.StructType(name=name, value=value)
            #
            # Store pointer/array/string info -- Check for parameter name in lens set
            iscount = False
            if name in lens:
                iscount = True
            # The pNext members are not tagged as optional, but are treated as optional for parameter NULL checks.  Static array
            # members are also treated as optional to skip NULL pointer validation, as they won't be NULL.
            isstaticarray = self.paramIsStaticArray(member)
            isoptional = False
            if self.paramIsOptional(member) or (name == 'pNext') or (isstaticarray):
                isoptional = True
            # Determine if value should be ignored by code generation.
            noautovalidity = False
            if (member.attrib.get('noautovalidity') is not None) or ((typeName in self.structMemberBlacklist) and (name in self.structMemberBlacklist[typeName])):
                noautovalidity = True
            membersInfo.append(self.CommandParam(type=type, name=name,
                                                ispointer=self.paramIsPointer(member),
                                                isstaticarray=isstaticarray,
                                                isbool=True if type == 'VkBool32' else False,
                                                israngedenum=True if type in self.enumRanges else False,
                                                isconst=True if 'const' in cdecl else False,
                                                isoptional=isoptional,
                                                iscount=iscount,
                                                noautovalidity=noautovalidity,
                                                len=self.getLen(member),
                                                extstructs=self.registry.validextensionstructs[typeName] if name == 'pNext' else None,
                                                condition=conditions[name] if conditions and name in conditions else None,
                                                cdecl=cdecl))
        self.structMembers.append(self.StructMemberData(name=typeName, members=membersInfo))
    #
    # Capture group (e.g. C "enum" type) info to be used for param check code generation.
    # These are concatenated together with other types.
    def genGroup(self, groupinfo, groupName, alias):
        OutputGenerator.genGroup(self, groupinfo, groupName, alias)
        groupElem = groupinfo.elem
        # Store the sType values
        if groupName == 'VkStructureType':
            for elem in groupElem.findall('enum'):
                self.stypes.append(elem.get('name'))
        elif 'FlagBits' in groupName:
            bits = []
            for elem in groupElem.findall('enum'):
                bits.append(elem.get('name'))
            if bits:
                self.flagBits[groupName] = bits
        else:
            # Determine if begin/end ranges are needed (we don't do this for VkStructureType, which has a more finely grained check)
            expandName = re.sub(r'([0-9a-z_])([A-Z0-9][^A-Z0-9]?)',r'\1_\2',groupName).upper()
            expandPrefix = expandName
            expandSuffix = ''
            expandSuffixMatch = re.search(r'[A-Z][A-Z]+$',groupName)
            if expandSuffixMatch:
                expandSuffix = '_' + expandSuffixMatch.group()
                # Strip off the suffix from the prefix
                expandPrefix = expandName.rsplit(expandSuffix, 1)[0]
            isEnum = ('FLAG_BITS' not in expandPrefix)
            if isEnum:
                self.enumRanges[groupName] = (expandPrefix + '_BEGIN_RANGE' + expandSuffix, expandPrefix + '_END_RANGE' + expandSuffix)
                # Create definition for a list containing valid enum values for this enumerated type
                enum_entry = 'const std::vector<%s> All%sEnums = {' % (groupName, groupName)
                for enum in groupElem:
                    name = enum.get('name')
                    if name is not None and enum.get('supported') != 'disabled':
                        enum_entry += '%s, ' % name
                enum_entry += '};\n'
                self.enumValueLists += enum_entry
    #
    # Capture command parameter info to be used for param check code generation.
    def genCmd(self, cmdinfo, name, alias):
        OutputGenerator.genCmd(self, cmdinfo, name, alias)
        decls = self.makeCDecls(cmdinfo.elem)
        typedef = decls[1]
        typedef = typedef.split(')',1)[1]
        if name not in self.blacklist:
            if (self.featureExtraProtect != None):
                self.declarations += [ '#ifdef %s' % self.featureExtraProtect ]
                self.intercepts += [ '#ifdef %s' % self.featureExtraProtect ]
                if (name not in self.validate_only):
                    self.func_pointers += '#ifdef %s\n' % self.featureExtraProtect
                    self.typedefs += '#ifdef %s\n' % self.featureExtraProtect
            if (name not in self.validate_only):
                self.typedefs += 'typedef bool (*PFN_manual_%s)%s\n' % (name, typedef)
                self.func_pointers += '    {"%s", nullptr},\n' % name
            self.intercepts += [ '    {"%s", (void*)%s},' % (name,name) ]
            # Strip off 'vk' from API name
            self.declarations += [ '%s' % decls[0].replace("VKAPI_CALL vk", "VKAPI_CALL ") ]
            if (self.featureExtraProtect != None):
                self.intercepts += [ '#endif' ]
                self.declarations += [ '#endif' ]
                if (name not in self.validate_only):
                    self.func_pointers += '#endif\n'
                    self.typedefs += '#endif\n'
        if name not in self.blacklist:
            params = cmdinfo.elem.findall('param')
            # Get list of array lengths
            lens = set()
            for param in params:
                len = self.getLen(param)
                if len:
                    lens.add(len)
            # Get param info
            paramsInfo = []
            for param in params:
                paramInfo = self.getTypeNameTuple(param)
                cdecl = self.makeCParamDecl(param, 0)
                # Check for parameter name in lens set
                iscount = False
                if paramInfo[1] in lens:
                    iscount = True
                paramsInfo.append(self.CommandParam(type=paramInfo[0], name=paramInfo[1],
                                                    ispointer=self.paramIsPointer(param),
                                                    isstaticarray=self.paramIsStaticArray(param),
                                                    isbool=True if paramInfo[0] == 'VkBool32' else False,
                                                    israngedenum=True if paramInfo[0] in self.enumRanges else False,
                                                    isconst=True if 'const' in cdecl else False,
                                                    isoptional=self.paramIsOptional(param),
                                                    iscount=iscount,
                                                    noautovalidity=True if param.attrib.get('noautovalidity') is not None else False,
                                                    len=self.getLen(param),
                                                    extstructs=None,
                                                    condition=None,
                                                    cdecl=cdecl))
            # Save return value information, if any
            result_type = ''
            resultinfo = cmdinfo.elem.find('proto/type')
            if (resultinfo != None and resultinfo.text != 'void'):
                result_type = resultinfo.text
            self.commands.append(self.CommandData(name=name, params=paramsInfo, cdecl=self.makeCDecls(cmdinfo.elem)[0], extension_type=self.extension_type, result=result_type))
    #
    # Check if the parameter passed in is a pointer
    def paramIsPointer(self, param):
        ispointer = 0
        paramtype = param.find('type')
        if (paramtype.tail is not None) and ('*' in paramtype.tail):
            ispointer = paramtype.tail.count('*')
        elif paramtype.text[:4] == 'PFN_':
            # Treat function pointer typedefs as a pointer to a single value
            ispointer = 1
        return ispointer
    #
    # Check if the parameter passed in is a static array
    def paramIsStaticArray(self, param):
        isstaticarray = 0
        paramname = param.find('name')
        if (paramname.tail is not None) and ('[' in paramname.tail):
            isstaticarray = paramname.tail.count('[')
        return isstaticarray
    #
    # Check if the parameter passed in is optional
    # Returns a list of Boolean values for comma separated len attributes (len='false,true')
    def paramIsOptional(self, param):
        # See if the handle is optional
        isoptional = False
        # Simple, if it's optional, return true
        optString = param.attrib.get('optional')
        if optString:
            if optString == 'true':
                isoptional = True
            elif ',' in optString:
                opts = []
                for opt in optString.split(','):
                    val = opt.strip()
                    if val == 'true':
                        opts.append(True)
                    elif val == 'false':
                        opts.append(False)
                    else:
                        print('Unrecognized len attribute value',val)
                isoptional = opts
        return isoptional
    #
    # Check if the handle passed in is optional
    # Uses the same logic as ValidityOutputGenerator.isHandleOptional
    def isHandleOptional(self, param, lenParam):
        # Simple, if it's optional, return true
        if param.isoptional:
            return True
        # If no validity is being generated, it usually means that validity is complex and not absolute, so let's say yes.
        if param.noautovalidity:
            return True
        # If the parameter is an array and we haven't already returned, find out if any of the len parameters are optional
        if lenParam and lenParam.isoptional:
            return True
        return False
    #
    # Generate a VkStructureType based on a structure typename
    def genVkStructureType(self, typename):
        # Add underscore between lowercase then uppercase
        value = re.sub('([a-z0-9])([A-Z])', r'\1_\2', typename)
        value = value.replace('D3_D12', 'D3D12')
        value = value.replace('Device_IDProp', 'Device_ID_Prop')
        # Change to uppercase
        value = value.upper()
        # Add STRUCTURE_TYPE_
        return re.sub('VK_', 'VK_STRUCTURE_TYPE_', value)
    #
    # Get the cached VkStructureType value for the specified struct typename, or generate a VkStructureType
    # value assuming the struct is defined by a different feature
    def getStructType(self, typename):
        value = None
        if typename in self.structTypes:
            value = self.structTypes[typename].value
        else:
            value = self.genVkStructureType(typename)
            self.logMsg('diag', 'ParameterValidation: Generating {} for {} structure type that was not defined by the current feature'.format(value, typename))
        return value
    #
    # Retrieve the value of the len tag
    def getLen(self, param):
        result = None
        len = param.attrib.get('len')
        if len and len != 'null-terminated':
            # For string arrays, 'len' can look like 'count,null-terminated', indicating that we have a null terminated array of
            # strings.  We strip the null-terminated from the 'len' field and only return the parameter specifying the string count
            if 'null-terminated' in len:
                result = len.split(',')[0]
            else:
                result = len
            result = str(result).replace('::', '->')
        return result
    #
    # Retrieve the type and name for a parameter
    def getTypeNameTuple(self, param):
        type = ''
        name = ''
        for elem in param:
            if elem.tag == 'type':
                type = noneStr(elem.text)
            elif elem.tag == 'name':
                name = noneStr(elem.text)
        return (type, name)
    #
    # Find a named parameter in a parameter list
    def getParamByName(self, params, name):
        for param in params:
            if param.name == name:
                return param
        return None
    #
    # Extract length values from latexmath.  Currently an inflexible solution that looks for specific
    # patterns that are found in vk.xml.  Will need to be updated when new patterns are introduced.
    def parseLateXMath(self, source):
        name = 'ERROR'
        decoratedName = 'ERROR'
        if 'mathit' in source:
            # Matches expressions similar to 'latexmath:[\lceil{\mathit{rasterizationSamples} \over 32}\rceil]'
            match = re.match(r'latexmath\s*\:\s*\[\s*\\l(\w+)\s*\{\s*\\mathit\s*\{\s*(\w+)\s*\}\s*\\over\s*(\d+)\s*\}\s*\\r(\w+)\s*\]', source)
            if not match or match.group(1) != match.group(4):
                raise 'Unrecognized latexmath expression'
            name = match.group(2)
            decoratedName = '{}({}/{})'.format(*match.group(1, 2, 3))
        else:
            # Matches expressions similar to 'latexmath : [dataSize \over 4]'
            match = re.match(r'latexmath\s*\:\s*\[\s*(\w+)\s*\\over\s*(\d+)\s*\]', source)
            name = match.group(1)
            decoratedName = '{}/{}'.format(*match.group(1, 2))
        return name, decoratedName
    #
    # Get the length paramater record for the specified parameter name
    def getLenParam(self, params, name):
        lenParam = None
        if name:
            if '->' in name:
                # The count is obtained by dereferencing a member of a struct parameter
                lenParam = self.CommandParam(name=name, iscount=True, ispointer=False, isbool=False, israngedenum=False, isconst=False,
                                             isstaticarray=None, isoptional=False, type=None, noautovalidity=False, len=None, extstructs=None,
                                             condition=None, cdecl=None)
            elif 'latexmath' in name:
                lenName, decoratedName = self.parseLateXMath(name)
                lenParam = self.getParamByName(params, lenName)
            else:
                lenParam = self.getParamByName(params, name)
        return lenParam
    #
    # Convert a vulkan.h command declaration into a parameter_validation.h definition
    def getCmdDef(self, cmd):
        # Strip the trailing ';' and split into individual lines
        lines = cmd.cdecl[:-1].split('\n')
        cmd_hdr = '\n'.join(lines)
        return cmd_hdr
    #
    # Generate the code to check for a NULL dereference before calling the
    # validation function
    def genCheckedLengthCall(self, name, exprs):
        count = name.count('->')
        if count:
            checkedExpr = []
            localIndent = ''
            elements = name.split('->')
            # Open the if expression blocks
            for i in range(0, count):
                checkedExpr.append(localIndent + 'if ({} != NULL) {{\n'.format('->'.join(elements[0:i+1])))
                localIndent = self.incIndent(localIndent)
            # Add the validation expression
            for expr in exprs:
                checkedExpr.append(localIndent + expr)
            # Close the if blocks
            for i in range(0, count):
                localIndent = self.decIndent(localIndent)
                checkedExpr.append(localIndent + '}\n')
            return [checkedExpr]
        # No if statements were required
        return exprs
    #
    # Generate code to check for a specific condition before executing validation code
    def genConditionalCall(self, prefix, condition, exprs):
        checkedExpr = []
        localIndent = ''
        formattedCondition = condition.format(prefix)
        checkedExpr.append(localIndent + 'if ({})\n'.format(formattedCondition))
        checkedExpr.append(localIndent + '{\n')
        localIndent = self.incIndent(localIndent)
        for expr in exprs:
            checkedExpr.append(localIndent + expr)
        localIndent = self.decIndent(localIndent)
        checkedExpr.append(localIndent + '}\n')
        return [checkedExpr]
    #
    # Get VUID identifier from implicit VUID tag
    def GetVuid(self, vuid_string):
        if '->' in vuid_string:
           return "VALIDATION_ERROR_UNDEFINED"
        vuid_num = self.IdToHex(convertVUID(vuid_string))
        if vuid_num in self.valid_vuids:
            vuid = "VALIDATION_ERROR_%s" % vuid_num
        else:
            vuid = "VALIDATION_ERROR_UNDEFINED"
        return vuid
    #
    # Generate the sType check string
    def makeStructTypeCheck(self, prefix, value, lenValue, valueRequired, lenValueRequired, lenPtrRequired, funcPrintName, lenPrintName, valuePrintName, postProcSpec, struct_type_name):
        checkExpr = []
        stype = self.structTypes[value.type]
        if lenValue:
            vuid_name = struct_type_name if struct_type_name is not None else funcPrintName
            vuid = self.GetVuid("VUID-%s-%s-parameter" % (vuid_name, value.name))
            # This is an array with a pointer to a count value
            if lenValue.ispointer:
                # When the length parameter is a pointer, there is an extra Boolean parameter in the function call to indicate if it is required
                checkExpr.append('skip |= validate_struct_type_array(local_data->report_data, "{}", {ppp}"{ldn}"{pps}, {ppp}"{dn}"{pps}, "{sv}", {pf}{ln}, {pf}{vn}, {sv}, {}, {}, {}, {});\n'.format(
                    funcPrintName, lenPtrRequired, lenValueRequired, valueRequired, vuid, ln=lenValue.name, ldn=lenPrintName, dn=valuePrintName, vn=value.name, sv=stype.value, pf=prefix, **postProcSpec))
            # This is an array with an integer count value
            else:
                checkExpr.append('skip |= validate_struct_type_array(local_data->report_data, "{}", {ppp}"{ldn}"{pps}, {ppp}"{dn}"{pps}, "{sv}", {pf}{ln}, {pf}{vn}, {sv}, {}, {}, {});\n'.format(
                    funcPrintName, lenValueRequired, valueRequired, vuid, ln=lenValue.name, ldn=lenPrintName, dn=valuePrintName, vn=value.name, sv=stype.value, pf=prefix, **postProcSpec))
        # This is an individual struct
        else:
            vuid = self.GetVuid("VUID-%s-sType-sType" % value.type)
            checkExpr.append('skip |= validate_struct_type(local_data->report_data, "{}", {ppp}"{}"{pps}, "{sv}", {}{vn}, {sv}, {}, {});\n'.format(
                funcPrintName, valuePrintName, prefix, valueRequired, vuid, vn=value.name, sv=stype.value, vt=value.type, **postProcSpec))
        return checkExpr
    #
    # Generate the handle check string
    def makeHandleCheck(self, prefix, value, lenValue, valueRequired, lenValueRequired, funcPrintName, lenPrintName, valuePrintName, postProcSpec):
        checkExpr = []
        if lenValue:
            if lenValue.ispointer:
                # This is assumed to be an output array with a pointer to a count value
                raise('Unsupported parameter validation case: Output handle array elements are not NULL checked')
            else:
                # This is an array with an integer count value
                checkExpr.append('skip |= validate_handle_array(local_data->report_data, "{}", {ppp}"{ldn}"{pps}, {ppp}"{dn}"{pps}, {pf}{ln}, {pf}{vn}, {}, {});\n'.format(
                    funcPrintName, lenValueRequired, valueRequired, ln=lenValue.name, ldn=lenPrintName, dn=valuePrintName, vn=value.name, pf=prefix, **postProcSpec))
        else:
            # This is assumed to be an output handle pointer
            raise('Unsupported parameter validation case: Output handles are not NULL checked')
        return checkExpr
    #
    # Generate check string for an array of VkFlags values
    def makeFlagsArrayCheck(self, prefix, value, lenValue, valueRequired, lenValueRequired, funcPrintName, lenPrintName, valuePrintName, postProcSpec):
        checkExpr = []
        flagBitsName = value.type.replace('Flags', 'FlagBits')
        if not flagBitsName in self.flagBits:
            raise('Unsupported parameter validation case: array of reserved VkFlags')
        else:
            allFlags = 'All' + flagBitsName
            checkExpr.append('skip |= validate_flags_array(local_data->report_data, "{}", {ppp}"{}"{pps}, {ppp}"{}"{pps}, "{}", {}, {pf}{}, {pf}{}, {}, {});\n'.format(funcPrintName, lenPrintName, valuePrintName, flagBitsName, allFlags, lenValue.name, value.name, lenValueRequired, valueRequired, pf=prefix, **postProcSpec))
        return checkExpr
    #
    # Generate pNext check string
    def makeStructNextCheck(self, prefix, value, funcPrintName, valuePrintName, postProcSpec, struct_type_name):
        checkExpr = []
        # Generate an array of acceptable VkStructureType values for pNext
        extStructCount = 0
        extStructVar = 'NULL'
        extStructNames = 'NULL'
        vuid = self.GetVuid("VUID-%s-pNext-pNext" % struct_type_name)
        if value.extstructs:
            extStructVar = 'allowed_structs_{}'.format(struct_type_name)
            extStructCount = 'ARRAY_SIZE({})'.format(extStructVar)
            extStructNames = '"' + ', '.join(value.extstructs) + '"'
            checkExpr.append('const VkStructureType {}[] = {{ {} }};\n'.format(extStructVar, ', '.join([self.getStructType(s) for s in value.extstructs])))
        checkExpr.append('skip |= validate_struct_pnext(local_data->report_data, "{}", {ppp}"{}"{pps}, {}, {}{}, {}, {}, GeneratedHeaderVersion, {});\n'.format(
            funcPrintName, valuePrintName, extStructNames, prefix, value.name, extStructCount, extStructVar, vuid, **postProcSpec))
        return checkExpr
    #
    # Generate the pointer check string
    def makePointerCheck(self, prefix, value, lenValue, valueRequired, lenValueRequired, lenPtrRequired, funcPrintName, lenPrintName, valuePrintName, postProcSpec, struct_type_name):
        checkExpr = []
        vuid_tag_name = struct_type_name if struct_type_name is not None else funcPrintName
        if lenValue:
            count_required_vuid = self.GetVuid("VUID-%s-%s-arraylength" % (vuid_tag_name, lenValue.name))
            array_required_vuid = self.GetVuid("VUID-%s-%s-parameter" % (vuid_tag_name, value.name))
            # This is an array with a pointer to a count value
            if lenValue.ispointer:
                # If count and array parameters are optional, there will be no validation
                if valueRequired == 'true' or lenPtrRequired == 'true' or lenValueRequired == 'true':
                    # When the length parameter is a pointer, there is an extra Boolean parameter in the function call to indicate if it is required
                    checkExpr.append('skip |= validate_array(local_data->report_data, "{}", {ppp}"{ldn}"{pps}, {ppp}"{dn}"{pps}, {pf}{ln}, &{pf}{vn}, {}, {}, {}, {}, {});\n'.format(
                        funcPrintName, lenPtrRequired, lenValueRequired, valueRequired, count_required_vuid, array_required_vuid, ln=lenValue.name, ldn=lenPrintName, dn=valuePrintName, vn=value.name, pf=prefix, **postProcSpec))
            # This is an array with an integer count value
            else:
                # If count and array parameters are optional, there will be no validation
                if valueRequired == 'true' or lenValueRequired == 'true':
                    if value.type != 'char':
                        checkExpr.append('skip |= validate_array(local_data->report_data, "{}", {ppp}"{ldn}"{pps}, {ppp}"{dn}"{pps}, {pf}{ln}, &{pf}{vn}, {}, {}, {}, {});\n'.format(
                            funcPrintName, lenValueRequired, valueRequired, count_required_vuid, array_required_vuid, ln=lenValue.name, ldn=lenPrintName, dn=valuePrintName, vn=value.name, pf=prefix, **postProcSpec))
                    else:
                        # Arrays of strings receive special processing
                        checkExpr.append('skip |= validate_string_array(local_data->report_data, "{}", {ppp}"{ldn}"{pps}, {ppp}"{dn}"{pps}, {pf}{ln}, {pf}{vn}, {}, {}, {}, {});\n'.format(
                            funcPrintName, lenValueRequired, valueRequired, count_required_vuid, array_required_vuid, ln=lenValue.name, ldn=lenPrintName, dn=valuePrintName, vn=value.name, pf=prefix, **postProcSpec))
            if checkExpr:
                if lenValue and ('->' in lenValue.name):
                    # Add checks to ensure the validation call does not dereference a NULL pointer to obtain the count
                    checkExpr = self.genCheckedLengthCall(lenValue.name, checkExpr)
        # This is an individual struct that is not allowed to be NULL
        elif not value.isoptional:
            # Function pointers need a reinterpret_cast to void*
            ptr_required_vuid = self.GetVuid("VUID-%s-%s-parameter" % (vuid_tag_name, value.name))
            if value.type[:4] == 'PFN_':
                allocator_dict = {'pfnAllocation': '002004f0',
                                  'pfnReallocation': '002004f2',
                                  'pfnFree': '002004f4',
                                  'pfnInternalAllocation': '002004f6'
                                 }
                vuid = allocator_dict.get(value.name)
                if vuid is not None:
                    ptr_required_vuid = 'VALIDATION_ERROR_%s' % vuid
                checkExpr.append('skip |= validate_required_pointer(local_data->report_data, "{}", {ppp}"{}"{pps}, reinterpret_cast<const void*>({}{}), {});\n'.format(funcPrintName, valuePrintName, prefix, value.name, ptr_required_vuid, **postProcSpec))
            else:
                checkExpr.append('skip |= validate_required_pointer(local_data->report_data, "{}", {ppp}"{}"{pps}, {}{}, {});\n'.format(funcPrintName, valuePrintName, prefix, value.name, ptr_required_vuid, **postProcSpec))
        return checkExpr
    #
    # Process struct member validation code, performing name suibstitution if required
    def processStructMemberCode(self, line, funcName, memberNamePrefix, memberDisplayNamePrefix, postProcSpec):
        # Build format specifier list
        kwargs = {}
        if '{postProcPrefix}' in line:
            # If we have a tuple that includes a format string and format parameters, need to use ParameterName class
            if type(memberDisplayNamePrefix) is tuple:
                kwargs['postProcPrefix'] = 'ParameterName('
            else:
                kwargs['postProcPrefix'] = postProcSpec['ppp']
        if '{postProcSuffix}' in line:
            # If we have a tuple that includes a format string and format parameters, need to use ParameterName class
            if type(memberDisplayNamePrefix) is tuple:
                kwargs['postProcSuffix'] = ', ParameterName::IndexVector{{ {}{} }})'.format(postProcSpec['ppi'], memberDisplayNamePrefix[1])
            else:
                kwargs['postProcSuffix'] = postProcSpec['pps']
        if '{postProcInsert}' in line:
            # If we have a tuple that includes a format string and format parameters, need to use ParameterName class
            if type(memberDisplayNamePrefix) is tuple:
                kwargs['postProcInsert'] = '{}{}, '.format(postProcSpec['ppi'], memberDisplayNamePrefix[1])
            else:
                kwargs['postProcInsert'] = postProcSpec['ppi']
        if '{funcName}' in line:
            kwargs['funcName'] = funcName
        if '{valuePrefix}' in line:
            kwargs['valuePrefix'] = memberNamePrefix
        if '{displayNamePrefix}' in line:
            # Check for a tuple that includes a format string and format parameters to be used with the ParameterName class
            if type(memberDisplayNamePrefix) is tuple:
                kwargs['displayNamePrefix'] = memberDisplayNamePrefix[0]
            else:
                kwargs['displayNamePrefix'] = memberDisplayNamePrefix

        if kwargs:
            # Need to escape the C++ curly braces
            if 'IndexVector' in line:
                line = line.replace('IndexVector{ ', 'IndexVector{{ ')
                line = line.replace(' }),', ' }}),')
            return line.format(**kwargs)
        return line
    #
    # Process struct validation code for inclusion in function or parent struct validation code
    def expandStructCode(self, lines, funcName, memberNamePrefix, memberDisplayNamePrefix, indent, output, postProcSpec):
        for line in lines:
            if output:
                output[-1] += '\n'
            if type(line) is list:
                for sub in line:
                    output.append(self.processStructMemberCode(indent + sub, funcName, memberNamePrefix, memberDisplayNamePrefix, postProcSpec))
            else:
                output.append(self.processStructMemberCode(indent + line, funcName, memberNamePrefix, memberDisplayNamePrefix, postProcSpec))
        return output
    #
    # Process struct pointer/array validation code, perfoeming name substitution if required
    def expandStructPointerCode(self, prefix, value, lenValue, funcName, valueDisplayName, postProcSpec):
        expr = []
        expr.append('if ({}{} != NULL)\n'.format(prefix, value.name))
        expr.append('{')
        indent = self.incIndent(None)
        if lenValue:
            # Need to process all elements in the array
            indexName = lenValue.name.replace('Count', 'Index')
            expr[-1] += '\n'
            if lenValue.ispointer:
                # If the length value is a pointer, de-reference it for the count.
                expr.append(indent + 'for (uint32_t {iname} = 0; {iname} < *{}{}; ++{iname})\n'.format(prefix, lenValue.name, iname=indexName))
            else:
                expr.append(indent + 'for (uint32_t {iname} = 0; {iname} < {}{}; ++{iname})\n'.format(prefix, lenValue.name, iname=indexName))
            expr.append(indent + '{')
            indent = self.incIndent(indent)
            # Prefix for value name to display in error message
            if value.ispointer == 2:
                memberNamePrefix = '{}{}[{}]->'.format(prefix, value.name, indexName)
                memberDisplayNamePrefix = ('{}[%i]->'.format(valueDisplayName), indexName)
            else:
                memberNamePrefix = '{}{}[{}].'.format(prefix, value.name, indexName)
                memberDisplayNamePrefix = ('{}[%i].'.format(valueDisplayName), indexName)
        else:
            memberNamePrefix = '{}{}->'.format(prefix, value.name)
            memberDisplayNamePrefix = '{}->'.format(valueDisplayName)
        # Expand the struct validation lines
        expr = self.expandStructCode(self.validatedStructs[value.type], funcName, memberNamePrefix, memberDisplayNamePrefix, indent, expr, postProcSpec)
        if lenValue:
            # Close if and for scopes
            indent = self.decIndent(indent)
            expr.append(indent + '}\n')
        expr.append('}\n')
        return expr
    #
    # Generate the parameter checking code
    def genFuncBody(self, funcName, values, valuePrefix, displayNamePrefix, structTypeName):
        lines = []    # Generated lines of code
        unused = []   # Unused variable names
        for value in values:
            usedLines = []
            lenParam = None
            #
            # Prefix and suffix for post processing of parameter names for struct members.  Arrays of structures need special processing to include the array index in the full parameter name.
            postProcSpec = {}
            postProcSpec['ppp'] = '' if not structTypeName else '{postProcPrefix}'
            postProcSpec['pps'] = '' if not structTypeName else '{postProcSuffix}'
            postProcSpec['ppi'] = '' if not structTypeName else '{postProcInsert}'
            #
            # Generate the full name of the value, which will be printed in the error message, by adding the variable prefix to the value name
            valueDisplayName = '{}{}'.format(displayNamePrefix, value.name)
            #
            # Check for NULL pointers, ignore the inout count parameters that
            # will be validated with their associated array
            if (value.ispointer or value.isstaticarray) and not value.iscount:
                # Parameters for function argument generation
                req = 'true'    # Paramerter cannot be NULL
                cpReq = 'true'  # Count pointer cannot be NULL
                cvReq = 'true'  # Count value cannot be 0
                lenDisplayName = None # Name of length parameter to print with validation messages; parameter name with prefix applied
                # Generate required/optional parameter strings for the pointer and count values
                if value.isoptional:
                    req = 'false'
                if value.len:
                    # The parameter is an array with an explicit count parameter
                    lenParam = self.getLenParam(values, value.len)
                    lenDisplayName = '{}{}'.format(displayNamePrefix, lenParam.name)
                    if lenParam.ispointer:
                        # Count parameters that are pointers are inout
                        if type(lenParam.isoptional) is list:
                            if lenParam.isoptional[0]:
                                cpReq = 'false'
                            if lenParam.isoptional[1]:
                                cvReq = 'false'
                        else:
                            if lenParam.isoptional:
                                cpReq = 'false'
                    else:
                        if lenParam.isoptional:
                            cvReq = 'false'
                #
                # The parameter will not be processes when tagged as 'noautovalidity'
                # For the pointer to struct case, the struct pointer will not be validated, but any
                # members not tagged as 'noatuvalidity' will be validated
                if value.noautovalidity:
                    # Log a diagnostic message when validation cannot be automatically generated and must be implemented manually
                    self.logMsg('diag', 'ParameterValidation: No validation for {} {}'.format(structTypeName if structTypeName else funcName, value.name))
                else:
                    # If this is a pointer to a struct with an sType field, verify the type
                    if value.type in self.structTypes:
                        usedLines += self.makeStructTypeCheck(valuePrefix, value, lenParam, req, cvReq, cpReq, funcName, lenDisplayName, valueDisplayName, postProcSpec, structTypeName)
                    # If this is an input handle array that is not allowed to contain NULL handles, verify that none of the handles are VK_NULL_HANDLE
                    elif value.type in self.handleTypes and value.isconst and not self.isHandleOptional(value, lenParam):
                        usedLines += self.makeHandleCheck(valuePrefix, value, lenParam, req, cvReq, funcName, lenDisplayName, valueDisplayName, postProcSpec)
                    elif value.type in self.flags and value.isconst:
                        usedLines += self.makeFlagsArrayCheck(valuePrefix, value, lenParam, req, cvReq, funcName, lenDisplayName, valueDisplayName, postProcSpec)
                    elif value.isbool and value.isconst:
                        usedLines.append('skip |= validate_bool32_array(local_data->report_data, "{}", {ppp}"{}"{pps}, {ppp}"{}"{pps}, {pf}{}, {pf}{}, {}, {});\n'.format(funcName, lenDisplayName, valueDisplayName, lenParam.name, value.name, cvReq, req, pf=valuePrefix, **postProcSpec))
                    elif value.israngedenum and value.isconst:
                        enum_value_list = 'All%sEnums' % value.type
                        usedLines.append('skip |= validate_ranged_enum_array(local_data->report_data, "{}", {ppp}"{}"{pps}, {ppp}"{}"{pps}, "{}", {}, {pf}{}, {pf}{}, {}, {});\n'.format(funcName, lenDisplayName, valueDisplayName, value.type, enum_value_list, lenParam.name, value.name, cvReq, req, pf=valuePrefix, **postProcSpec))
                    elif value.name == 'pNext':
                        # We need to ignore VkDeviceCreateInfo and VkInstanceCreateInfo, as the loader manipulates them in a way that is not documented in vk.xml
                        if not structTypeName in ['VkDeviceCreateInfo', 'VkInstanceCreateInfo']:
                            usedLines += self.makeStructNextCheck(valuePrefix, value, funcName, valueDisplayName, postProcSpec, structTypeName)
                    else:
                        usedLines += self.makePointerCheck(valuePrefix, value, lenParam, req, cvReq, cpReq, funcName, lenDisplayName, valueDisplayName, postProcSpec, structTypeName)
                    # If this is a pointer to a struct (input), see if it contains members that need to be checked
                    if value.type in self.validatedStructs and value.isconst:
                        usedLines.append(self.expandStructPointerCode(valuePrefix, value, lenParam, funcName, valueDisplayName, postProcSpec))
            # Non-pointer types
            else:
                # The parameter will not be processes when tagged as 'noautovalidity'
                # For the struct case, the struct type will not be validated, but any
                # members not tagged as 'noatuvalidity' will be validated
                if value.noautovalidity:
                    # Log a diagnostic message when validation cannot be automatically generated and must be implemented manually
                    self.logMsg('diag', 'ParameterValidation: No validation for {} {}'.format(structTypeName if structTypeName else funcName, value.name))
                else:
                    vuid_name_tag = structTypeName if structTypeName is not None else funcName
                    if value.type in self.structTypes:
                        stype = self.structTypes[value.type]
                        vuid = self.GetVuid("VUID-%s-sType-sType" % value.type)
                        usedLines.append('skip |= validate_struct_type(local_data->report_data, "{}", {ppp}"{}"{pps}, "{sv}", &({}{vn}), {sv}, false, {});\n'.format(
                            funcName, valueDisplayName, valuePrefix, vuid, vn=value.name, sv=stype.value, vt=value.type, **postProcSpec))
                    elif value.type in self.handleTypes:
                        if not self.isHandleOptional(value, None):
                            usedLines.append('skip |= validate_required_handle(local_data->report_data, "{}", {ppp}"{}"{pps}, {}{});\n'.format(funcName, valueDisplayName, valuePrefix, value.name, **postProcSpec))
                    elif value.type in self.flags:
                        flagBitsName = value.type.replace('Flags', 'FlagBits')
                        if not flagBitsName in self.flagBits:
                            vuid = self.GetVuid("VUID-%s-%s-zerobitmask" % (vuid_name_tag, value.name))
                            usedLines.append('skip |= validate_reserved_flags(local_data->report_data, "{}", {ppp}"{}"{pps}, {pf}{}, {});\n'.format(funcName, valueDisplayName, value.name, vuid, pf=valuePrefix, **postProcSpec))
                        else:
                            if value.isoptional:
                                flagsRequired = 'false'
                                vuid = self.GetVuid("VUID-%s-%s-parameter" % (vuid_name_tag, value.name))
                            else:
                                flagsRequired = 'true'
                                vuid = self.GetVuid("VUID-%s-%s-requiredbitmask" % (vuid_name_tag, value.name))
                            allFlagsName = 'All' + flagBitsName
                            usedLines.append('skip |= validate_flags(local_data->report_data, "{}", {ppp}"{}"{pps}, "{}", {}, {pf}{}, {}, false, {});\n'.format(funcName, valueDisplayName, flagBitsName, allFlagsName, value.name, flagsRequired, vuid, pf=valuePrefix, **postProcSpec))
                    elif value.type in self.flagBits:
                        flagsRequired = 'false' if value.isoptional else 'true'
                        allFlagsName = 'All' + value.type
                        vuid = self.GetVuid("VUID-%s-%s-parameter" % (vuid_name_tag, value.name))
                        usedLines.append('skip |= validate_flags(local_data->report_data, "{}", {ppp}"{}"{pps}, "{}", {}, {pf}{}, {}, true, {});\n'.format(funcName, valueDisplayName, value.type, allFlagsName, value.name, flagsRequired, vuid, pf=valuePrefix, **postProcSpec))
                    elif value.isbool:
                        usedLines.append('skip |= validate_bool32(local_data->report_data, "{}", {ppp}"{}"{pps}, {}{});\n'.format(funcName, valueDisplayName, valuePrefix, value.name, **postProcSpec))
                    elif value.israngedenum:
                        vuid = self.GetVuid("VUID-%s-%s-parameter" % (vuid_name_tag, value.name))
                        enum_value_list = 'All%sEnums' % value.type
                        usedLines.append('skip |= validate_ranged_enum(local_data->report_data, "{}", {ppp}"{}"{pps}, "{}", {}, {}{}, {});\n'.format(funcName, valueDisplayName, value.type, enum_value_list, valuePrefix, value.name, vuid, **postProcSpec))
                    # If this is a struct, see if it contains members that need to be checked
                    if value.type in self.validatedStructs:
                        memberNamePrefix = '{}{}.'.format(valuePrefix, value.name)
                        memberDisplayNamePrefix = '{}.'.format(valueDisplayName)
                        usedLines.append(self.expandStructCode(self.validatedStructs[value.type], funcName, memberNamePrefix, memberDisplayNamePrefix, '', [], postProcSpec))
            # Append the parameter check to the function body for the current command
            if usedLines:
                # Apply special conditional checks
                if value.condition:
                    usedLines = self.genConditionalCall(valuePrefix, value.condition, usedLines)
                lines += usedLines
            elif not value.iscount:
                # If no expression was generated for this value, it is unreferenced by the validation function, unless
                # it is an array count, which is indirectly referenced for array valiadation.
                unused.append(value.name)
        if not lines:
            lines.append('// No xml-driven validation\n')
        return lines, unused
    #
    # Generate the struct member check code from the captured data
    def processStructMemberData(self):
        indent = self.incIndent(None)
        for struct in self.structMembers:
            #
            # The string returned by genFuncBody will be nested in an if check for a NULL pointer, so needs its indent incremented
            lines, unused = self.genFuncBody('{funcName}', struct.members, '{valuePrefix}', '{displayNamePrefix}', struct.name)
            if lines:
                self.validatedStructs[struct.name] = lines
    #
    # Generate the command param check code from the captured data
    def processCmdData(self):
        indent = self.incIndent(None)
        for command in self.commands:
            just_validate = False
            if command.name in self.validate_only:
                just_validate = True
            # Skip first parameter if it is a dispatch handle (everything except vkCreateInstance)
            startIndex = 0 if command.name == 'vkCreateInstance' else 1
            lines, unused = self.genFuncBody(command.name, command.params[startIndex:], '', '', None)
            # Cannot validate extension dependencies for device extension APIs having a physical device as their dispatchable object
            if (command.name in self.required_extensions) and (self.extension_type != 'device' or command.params[0].type != 'VkPhysicalDevice'):
                ext_test = ''
                for ext in self.required_extensions[command.name]:
                    ext_name_define = ''
                    ext_enable_name = ''
                    for extension in self.registry.extensions:
                        if extension.attrib['name'] == ext:
                            ext_name_define = extension[0][1].get('name')
                            ext_enable_name = ext_name_define.lower()
                            ext_enable_name = re.sub('_extension_name', '', ext_enable_name)
                            break
                    ext_test = 'if (!local_data->extensions.%s) skip |= OutputExtensionError(local_data, "%s", %s);\n' % (ext_enable_name, command.name, ext_name_define)
                    lines.insert(0, ext_test)
            if lines:
                cmdDef = self.getCmdDef(command) + '\n'
                # For a validation-only routine, change the function declaration
                if just_validate:
                    jv_def = '// Generated function handles validation only -- API definition is in non-generated source\n'
                    jv_def += 'extern %s\n\n' % command.cdecl
                    cmdDef = 'bool parameter_validation_' + cmdDef.split('VKAPI_CALL ',1)[1]
                    if command.name == 'vkCreateInstance':
                        cmdDef = cmdDef.replace('(\n', '(\n    VkInstance instance,\n')
                    cmdDef = jv_def + cmdDef
                cmdDef += '{\n'

                # Add list of commands to skip -- just generate the routine signature and put the manual source in parameter_validation_utils.cpp
                if command.params[0].type in ["VkInstance", "VkPhysicalDevice"] or command.name == 'vkCreateInstance':
                    map_name = 'instance_layer_data_map'
                    map_type = 'instance_layer_data'
                else:
                    map_name = 'layer_data_map'
                    map_type = 'layer_data'
                instance_param = command.params[0].name
                if command.name == 'vkCreateInstance':
                    instance_param = 'instance'
                layer_data = '    %s *local_data = GetLayerDataPtr(get_dispatch_key(%s), %s);\n' % (map_type, instance_param, map_name)
                cmdDef += layer_data
                cmdDef += '%sbool skip = false;\n' % indent
                if not just_validate:
                    if command.result != '':
                        if command.result == "VkResult":
                            cmdDef += indent + '%s result = VK_ERROR_VALIDATION_FAILED_EXT;\n' % command.result
                        elif command.result == "VkBool32":
                            cmdDef += indent + '%s result = VK_FALSE;\n' % command.result
                        else:
                            raise Exception("Unknown result type: " + command.result)

                    cmdDef += '%sstd::unique_lock<std::mutex> lock(global_lock);\n' % indent
                for line in lines:
                    cmdDef += '\n'
                    if type(line) is list:
                        for sub in line:
                            cmdDef += indent + sub
                    else:
                        cmdDef += indent + line
                cmdDef += '\n'
                if not just_validate:
                    # Generate parameter list for manual fcn and down-chain calls
                    params_text = ''
                    for param in command.params:
                        params_text += '%s, ' % param.name
                    params_text = params_text[:-2]
                    # Generate call to manual function if its function pointer is non-null
                    cmdDef += '%sPFN_manual_%s custom_func = (PFN_manual_%s)custom_functions["%s"];\n' % (indent, command.name, command.name, command.name)
                    cmdDef += '%sif (custom_func != nullptr) {\n' % indent
                    cmdDef += '    %sskip |= custom_func(%s);\n' % (indent, params_text)
                    cmdDef += '%s}\n\n' % indent
                    # Release the validation lock
                    cmdDef += '%slock.unlock();\n' % indent
                    # Generate skip check and down-chain call
                    cmdDef += '%sif (!skip) {\n'  % indent
                    down_chain_call = '    %s' % indent
                    if command.result != '':
                        down_chain_call += '    result = '
                    # Generate down-chain API call
                    api_call = '%s(%s);' % (command.name, params_text)
                    down_chain_call += 'local_data->dispatch_table.%s\n' % api_call[2:]
                    cmdDef += down_chain_call
                    cmdDef += '%s}\n' % indent
                    if command.result != '':
                        cmdDef += '%sreturn result;\n' % indent
                else:
                    cmdDef += '%sreturn skip;\n' % indent
                cmdDef += '}\n'
                self.validation.append(cmdDef)
